Back to Scrolling Models of Dead Sea Scrolls

In this blogpost, I will explain the connection between the initial phases of my work at the Sherman Centre, which focused on textual reconstructions in 1QHa, and how they feed into my current work on 3D modelling the War Scroll (1QM).[1] I will also address how these phases lay the groundwork for my ultimate objective, a reassessment of the reconstruction of cols. 1–8 of 1QHa. Before starting at the Sherman Centre, I began to do some exploratory work on a scrolling digital model of 1QHa to better understand the patterns of damage that Hartmut Stegemann used to reconstruct the Scroll.[2] I was especially interested in cols. 1–8, which I wanted to better understand because the patterns of damage that Stegemann described were not obvious to me when I viewed the plates of the scroll in its unrolled state in his edition.[3] I proposed this project at manuSciences ’15, a Franco-German Summer School, organized around the theme, “From Fragments to Books—From Identification to Interpretation.” My poster proposed to address one of the biggest questions in the reconstruction of 1QHa, the placement of frgs. 10, 34, and 42 in col. 7. At this point, I pitched the method of digitally rolling the reconstruction of 1QHa to see if the patterns of damage matched as Stegemann’s described in DJD 40. I did not, however, have a functional model yet because I was still experimenting with 3D modeling programs at the time.

For my project as a Sherman Centre fellow in 2015–16, I pursued a narrower study of 1QHa frgs. 10, 34, and 42, which focused on the spacing for the textual reconstructions that Stegemann had proposed between the fragments and the rest of the column. Stegemann’s textual reconstructions are not ultimately decisive for the fragment placements in col. 7, but this smaller study allowed me to experiment with methods and tools for estimating the space for textual reconstructions with fonts and cropped letters from other parts of the manuscript.[4] Eventually I will have to do this on a larger scale in the corresponding part of 4QHa that contains the same passage (1QHa 7:14–19//4QHa 8 i 6–12) as I assess alternative fragment placements. As I worked on this project, I found that reconstructive issues in 1QHa 7 are thoroughly intertwined with the first two sheets of the manuscript and the reconstruction of 4QHa.

To address the reconstructive issues in both scrolls, I needed an efficient way to experiment with material reconstructions and to demonstrate alternative reconstructions in a rolled state, which drew me back to my manuSciences ’15 proposal. One of the major critiques of the Stegemann method is that it leaves too much up to the imagination of the reader, who may lack the time, resources, or information to check the measurements of the reconstruction. In many cases the data underlying the reconstruction is only partially provided if it is not completely omitted. In the current phase of my work at the Sherman Centre, I am developing an approach for creating scrollable digital reconstructions that I can use to examine the patterns of damage in 1QHa and 4QHa. I have chosen 1QM as my test case because, unlike 1QHa and 4QHa, there are only minor questions about a few fragments, so we can see how well an almost entirely non-problematic reconstruction looks as a scrollable model while also seeing how it can shed light on the few outstanding or questionable fragment placements. In the process of rolling the reconstruction of 1QM, I found it useful for experimenting with reconstructive options and visualizing reconstructive proposals for publications and presentations. Rolling 1QM also offered an opportunity to reflect on the some of the limitations of the Stegemann method, which do not invalidate the method but are areas where the method has the potential to produce inaccurate or distorted reconstructions in certain situations.

The next phase in this research project that I would like to pursue after my dissertation will build on my work at the Sherman Centre and would examine in greater depth the feasibility of the reconstructions of 1QHa 1–8 and 4QHa and explore alternative reconstructions of the two scrolls. This project would have implications for the text of some of the Hodayot psalms as well as our understanding of how these psalms were collected and anthologized in a period when the scriptural psalms also appear in collections of varying length and order. In other words, my Sherman Centre project is laying the groundwork and refining the tools that I will build on to pursue my research questions about these two important Hodayot manuscripts, which will in turn contribute to the larger discussion of psalms collections in the late Second Temple period.

Notes

[1]. 1QHodayota is a collection of approximately thirty previously unknown psalms. They thank and praise God for deliverance from adversaries and for knowledge of divine mysteries. Seven other highly fragmentary scrolls (1QHb, 4QHa–f) that contain various compilations of these psalms were also discovered in Caves 1 and 4 at Qumran. 1QM is a composite document that contains rules, psalms, and descriptions of an eschatological conflict between the sons of light and the sons of darkness.

[2]. Hartmut Stegemann and other Scrolls scholars have used repeating patterns of damages that formed while the manuscript was rolled to reconstruct manuscripts. The distance between each instance of the congruent damage is the circumference of the scroll at that particular point in the manuscript. This allowed Stegemann to estimate where fragments with similar shapes belonged in the manuscript even when the intervening parchment had completely decayed. For more see Hartmut Stegemann, “How to Connect Dead Sea Scroll Fragments,” BRev4.1 (1988): 1–11; “Methods for the Reconstruction of Scrolls from Scattered Fragments,” in Archaeology and History in the Dead Sea Scrolls: The New York University Conference in Memory of Yigael Yadin, ed. Lawrence H. Schiffman, JSPSup 8 (Sheffield: JSOT, 1990), 189–220; “The Material Reconstruction of 1QHodayot,” in Dead Sea Scrolls: Fifty Years after Their Discovery. Proceedings of the Jerusalem Congress, July 20-25, 1997, ed. L. H. Schiffman, E. Tov, and J. C. VanderKam (Jerusalem: Israel Exploration Society in cooperation with the Shrine of the Book, Israel Museum, 2000), 272–84.

[3]. Hartmut Stegemann and Eileen Schuller, DJD 40.

[4]. I experimented with approaches found in Bruce Zuckerman, Asher Levy, and Marilyn J. Lundberg, “A Methodology for the Digital Reconstruction of Dead Sea Scroll Fragmentary Remains,” in Dead Sea Scrolls Fragments in the Museum Collection, ed. Emanuel Tov, Kipp Davis, and Robert Duke, PMB 1 (Leiden: Brill, 2016), 36–58; “The Dynamics of Change in the Computer Imaging of the Dead Sea Scrolls and Other Ancient Inscriptions,” in Rediscovering the Dead Sea Scrolls: An Assessment of Old and New Approaches and Methods, Rediscovering the Dead Sea Scrolls (Grand Rapids: Eerdmans, 2010), 69–88; Asaf Gayer, Daniel Stökl Ben Ezra, and Jonathan Ben-Dov, “A New Join of Two Fragments of 4QcryptA Serekh HaEdah and Its Implications,” Dead Sea Discoveries23.2 (2016): 139–54.

———. “Methods for the Reconstruction of Scrolls from Scattered Fragments.” Pages 189–220 in Archaeology and History in the Dead Sea Scrolls: The New York University Conference in Memory of Yigael Yadin. Edited by Lawrence H. Schiffman. JSPSup 8. Sheffield: JSOT, 1990.

Zuckerman, Bruce. “The Dynamics of Change in the Computer Imaging of the Dead Sea Scrolls and Other Ancient Inscriptions.” Pages 69–88 in Rediscovering the Dead Sea Scrolls: An Assessment of Old and New Approaches and Methods. Grand Rapids: Eerdmans, 2010.